jdk/src/java.base/share/classes/java/lang/module/Configuration.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2014, 2017, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.  Oracle designates this
  * particular file as subject to the "Classpath" exception as provided
  * by Oracle in the LICENSE file that accompanied this code.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 package java.lang.module;

 import java.io.PrintStream;
 import java.util.ArrayDeque;
 import java.util.ArrayList;
 import java.util.Collection;
 import java.util.Collections;
 import java.util.Deque;
 import java.util.HashSet;
 import java.util.List;
 import java.util.Map;
 import java.util.Map.Entry;
 import java.util.Objects;
 import java.util.Optional;
 import java.util.Set;
 import java.util.stream.Collectors;
 import java.util.stream.Stream;

 /**
  * A configuration that is the result of <a href="package-summary.html#resolution">
  * resolution</a> or resolution with <a href="#service-binding">service binding</a>.
  *
  * <p> A configuration encapsulates the <em>readability graph</em> that is the
  * output of resolution. A readability graph is a directed graph whose vertices
  * are of type {@link ResolvedModule} and the edges represent the readability
  * amongst the modules. {@code Configuration} defines the {@link #modules()
  * modules()} method to get the set of resolved modules in the graph. {@code
  * ResolvedModule} defines the {@link ResolvedModule#reads() reads()} method to
  * get the set of modules that a resolved module reads. The modules that are
  * read may be in the same configuration or may be in {@link #parents() parent}
  * configurations. </p>
  *
  * <p> Configuration defines the {@link #resolve(ModuleFinder,List,ModuleFinder,Collection)
  * resolve} method to resolve a collection of root modules, and the {@link
  * #resolveAndBind(ModuleFinder,List,ModuleFinder,Collection) resolveAndBind}
  * method to do resolution with service binding. There are instance and
  * static variants of both methods. The instance methods create a configuration
  * with the receiver as the parent configuration. The static methods are for
  * more advanced cases where there can be more than one parent configuration. </p>
  *
  * <p> Each {@link java.lang.ModuleLayer layer} of modules in the Java virtual
  * machine is created from a configuration. The configuration for the {@link
  * java.lang.ModuleLayer#boot() boot} layer is obtained by invoking {@code
  * ModuleLayer.boot().configuration()}. The configuration for the boot layer
  * will often be the parent when creating new configurations. </p>
  *
  * <h3> Example </h3>
  *
  * <p> The following example uses the {@link
  * #resolve(ModuleFinder,ModuleFinder,Collection) resolve} method to resolve a
  * module named <em>myapp</em> with the configuration for the boot layer as the
  * parent configuration. It prints the name of each resolved module and the
  * names of the modules that each module reads. </p>
  *
  * <pre>{@code
  *    ModuleFinder finder = ModuleFinder.of(dir1, dir2, dir3);
  *
  *    Configuration parent = ModuleLayer.boot().configuration();
  *
  *    Configuration cf = parent.resolve(finder, ModuleFinder.of(), Set.of("myapp"));
  *    cf.modules().forEach(m -> {
  *        System.out.format("%s -> %s%n",
  *            m.name(),
  *            m.reads().stream()
  *                .map(ResolvedModule::name)
  *                .collect(Collectors.joining(", ")));
  *    });
  * }</pre>
  *
  * @since 9
  * @spec JPMS
  * @see java.lang.ModuleLayer
  */
 public final class Configuration {

     // @see Configuration#empty()
     private static final Configuration EMPTY_CONFIGURATION = new Configuration();

     // parent configurations, in search order
     private final List<Configuration> parents;

     private final Map<ResolvedModule, Set<ResolvedModule>> graph;
     private final Set<ResolvedModule> modules;
     private final Map<String, ResolvedModule> nameToModule;

     // constraint on target platform
     private final String targetPlatform;

     String targetPlatform() { return targetPlatform; }

     private Configuration() {
         this.parents = Collections.emptyList();
         this.graph = Collections.emptyMap();
         this.modules = Collections.emptySet();
         this.nameToModule = Collections.emptyMap();
         this.targetPlatform = null;
     }

     private Configuration(List<Configuration> parents,
                           Resolver resolver,
                           boolean check)
     {
         Map<ResolvedModule, Set<ResolvedModule>> g = resolver.finish(this, check);

         @SuppressWarnings(value = {"rawtypes", "unchecked"})
         Entry<String, ResolvedModule>[] nameEntries
             = (Entry<String, ResolvedModule>[])new Entry[g.size()];
         ResolvedModule[] moduleArray = new ResolvedModule[g.size()];
         int i = 0;
         for (ResolvedModule resolvedModule : g.keySet()) {
             moduleArray[i] = resolvedModule;
             nameEntries[i] = Map.entry(resolvedModule.name(), resolvedModule);
             i++;
         }

         this.parents = Collections.unmodifiableList(parents);
         this.graph = g;
         this.modules = Set.of(moduleArray);
         this.nameToModule = Map.ofEntries(nameEntries);

         this.targetPlatform = resolver.targetPlatform();
     }

     /**
      * Resolves a collection of root modules, with this configuration as its
      * parent, to create a new configuration. This method works exactly as
      * specified by the static {@link
      * #resolve(ModuleFinder,List,ModuleFinder,Collection) resolve}
      * method when invoked with this configuration as the parent. In other words,
      * if this configuration is {@code cf} then this method is equivalent to
      * invoking:
      * <pre> {@code
      *     Configuration.resolve(before, List.of(cf), after, roots);
      * }</pre>
      *
      * @param  before
      *         The <em>before</em> module finder to find modules
      * @param  after
      *         The <em>after</em> module finder to locate modules when not
      *         located by the {@code before} module finder or in parent
      *         configurations
      * @param  roots
      *         The possibly-empty collection of module names of the modules
      *         to resolve
      *
      * @return The configuration that is the result of resolving the given
      *         root modules
      *
      * @throws FindException
      *         If resolution fails for any of the observability-related reasons
      *         specified by the static {@code resolve} method
      * @throws ResolutionException
      *         If resolution fails any of the consistency checks specified by
      *         the static {@code resolve} method
      * @throws SecurityException
      *         If locating a module is denied by the security manager
      */
     public Configuration resolve(ModuleFinder before,
                                  ModuleFinder after,
                                  Collection<String> roots)
     {
         return resolve(before, List.of(this), after, roots);
     }


     /**
      * Resolves a collection of root modules, with service binding, and with
      * this configuration as its parent, to create a new configuration.
      * This method works exactly as specified by the static {@link
      * #resolveAndBind(ModuleFinder,List,ModuleFinder,Collection)
      * resolveAndBind} method when invoked with this configuration
      * as the parent. In other words, if this configuration is {@code cf} then
      * this method is equivalent to invoking:
      * <pre> {@code
      *     Configuration.resolveAndBind(before, List.of(cf), after, roots);
      * }</pre>
      *
      *
      * @param  before
      *         The <em>before</em> module finder to find modules
      * @param  after
      *         The <em>after</em> module finder to locate modules when not
      *         located by the {@code before} module finder or in parent
      *         configurations
      * @param  roots
      *         The possibly-empty collection of module names of the modules
      *         to resolve
      *
      * @return The configuration that is the result of resolving, with service
      *         binding, the given root modules
      *
      * @throws FindException
      *         If resolution fails for any of the observability-related reasons
      *         specified by the static {@code resolve} method
      * @throws ResolutionException
      *         If resolution fails any of the consistency checks specified by
      *         the static {@code resolve} method
      * @throws SecurityException
      *         If locating a module is denied by the security manager
      */
     public Configuration resolveAndBind(ModuleFinder before,
                                         ModuleFinder after,
                                         Collection<String> roots)
     {
         return resolveAndBind(before, List.of(this), after, roots);
     }


     /**
      * Resolves a collection of root modules, with service binding, and with
      * the empty configuration as its parent. The consistency checks
      * are optionally run.
      *
      * This method is used to create the configuration for the boot layer.
      */
     static Configuration resolveAndBind(ModuleFinder finder,
                                         Collection<String> roots,
                                         boolean check,
                                         PrintStream traceOutput)
     {
         List<Configuration> parents = List.of(empty());
         Resolver resolver = new Resolver(finder, parents, ModuleFinder.of(), traceOutput);
         resolver.resolve(roots).bind();

         return new Configuration(parents, resolver, check);
     }


     /**
      * Resolves a collection of root modules to create a configuration.
      *
      * <p> Each root module is located using the given {@code before} module
      * finder. If a module is not found then it is located in the parent
      * configuration as if by invoking the {@link #findModule(String)
      * findModule} method on each parent in iteration order. If not found then
      * the module is located using the given {@code after} module finder. The
      * same search order is used to locate transitive dependences. Root modules
      * or dependences that are located in a parent configuration are resolved
      * no further and are not included in the resulting configuration. </p>
      *
      * <p> When all modules have been enumerated then a readability graph
      * is computed, and in conjunction with the module exports and service use,
      * checked for consistency. </p>
      *
      * <p> Resolution may fail with {@code FindException} for the following
      * <em>observability-related</em> reasons: </p>
      *
      * <ul>
      *
      *     <li><p> A root module, or a direct or transitive dependency, is not
      *     found. </p></li>
      *
      *     <li><p> An error occurs when attempting to find a module.
      *     Possible errors include I/O errors, errors detected parsing a module
      *     descriptor ({@code module-info.class}) or two versions of the same
      *     module are found in the same directory. </p></li>
      *
      * </ul>
      *
      * <p> Resolution may fail with {@code ResolutionException} if any of the
      * following consistency checks fail: </p>
      *
      * <ul>
      *
      *     <li><p> A cycle is detected, say where module {@code m1} requires
      *     module {@code m2} and {@code m2} requires {@code m1}. </p></li>
      *
      *     <li><p> A module reads two or more modules with the same name. This
      *     includes the case where a module reads another with the same name as
      *     itself. </p></li>
      *
      *     <li><p> Two or more modules in the configuration export the same
      *     package to a module that reads both. This includes the case where a
      *     module {@code M} containing package {@code p} reads another module
      *     that exports {@code p} to {@code M}. </p></li>
      *
      *     <li><p> A module {@code M} declares that it "{@code uses p.S}" or
      *     "{@code provides p.S with ...}" but package {@code p} is neither in
      *     module {@code M} nor exported to {@code M} by any module that
      *     {@code M} reads. </p></li>
      *
      * </ul>
      *
      * @implNote In the implementation then observability of modules may depend
      * on referential integrity or other checks that ensure different builds of
      * tightly coupled modules or modules for specific operating systems or
      * architectures are not combined in the same configuration.
      *
      * @param  before
      *         The <em>before</em> module finder to find modules
      * @param  parents
      *         The list parent configurations in search order
      * @param  after
      *         The <em>after</em> module finder to locate modules when not
      *         located by the {@code before} module finder or in parent
      *         configurations
      * @param  roots
      *         The possibly-empty collection of module names of the modules
      *         to resolve
      *
      * @return The configuration that is the result of resolving the given
      *         root modules
      *
      * @throws FindException
      *         If resolution fails for any of observability-related reasons
      *         specified above
      * @throws ResolutionException
      *         If resolution fails for any of the consistency checks specified
      *         above
      * @throws IllegalArgumentException
      *         If the list of parents is empty, or the list has two or more
      *         parents with modules for different target operating systems,
      *         architectures, or versions
      *
      * @throws SecurityException
      *         If locating a module is denied by the security manager
      */
     public static Configuration resolve(ModuleFinder before,
                                         List<Configuration> parents,
                                         ModuleFinder after,
                                         Collection<String> roots)
     {
         Objects.requireNonNull(before);
         Objects.requireNonNull(after);
         Objects.requireNonNull(roots);

         List<Configuration> parentList = new ArrayList<>(parents);
         if (parentList.isEmpty())
             throw new IllegalArgumentException("'parents' is empty");

         Resolver resolver = new Resolver(before, parentList, after, null);
         resolver.resolve(roots);

         return new Configuration(parentList, resolver, true);
     }

     /**
      * Resolves a collection of root modules, with service binding, to create
      * configuration.
      *
      * <p> This method works exactly as specified by {@link
      * #resolve(ModuleFinder,List,ModuleFinder,Collection)
      * resolve} except that the graph of resolved modules is augmented
      * with modules induced by the service-use dependence relation. </p>
      *
      * <p id="service-binding"> More specifically, the root modules are
      * resolved as if by calling {@code resolve}. The resolved modules, and
      * all modules in the parent configurations, with {@link ModuleDescriptor#uses()
      * service dependences} are then examined. All modules found by the given
      * module finders that {@link ModuleDescriptor#provides() provide} an
      * implementation of one or more of the service types are added to the
      * module graph and then resolved as if by calling the {@code
      * resolve} method. Adding modules to the module graph may introduce new
      * service-use dependences and so the process works iteratively until no
      * more modules are added. </p>
      *
      * <p> As service binding involves resolution then it may fail with {@code
      * FindException} or {@code ResolutionException} for exactly the same
      * reasons specified in {@code resolve}. </p>
      *
      * @param  before
      *         The <em>before</em> module finder to find modules
      * @param  parents
      *         The list parent configurations in search order
      * @param  after
      *         The <em>after</em> module finder to locate modules when not
      *         located by the {@code before} module finder or in parent
      *         configurations
      * @param  roots
      *         The possibly-empty collection of module names of the modules
      *         to resolve
      *
      * @return The configuration that is the result of resolving, with service
      *         binding, the given root modules
      *
      * @throws FindException
      *         If resolution fails for any of the observability-related reasons
      *         specified by the static {@code resolve} method
      * @throws ResolutionException
      *         If resolution fails any of the consistency checks specified by
      *         the static {@code resolve} method
      * @throws IllegalArgumentException
      *         If the list of parents is empty, or the list has two or more
      *         parents with modules for different target operating systems,
      *         architectures, or versions
      * @throws SecurityException
      *         If locating a module is denied by the security manager
      */
     public static Configuration resolveAndBind(ModuleFinder before,
                                                List<Configuration> parents,
                                                ModuleFinder after,
                                                Collection<String> roots)
     {
         Objects.requireNonNull(before);
         Objects.requireNonNull(after);
         Objects.requireNonNull(roots);

         List<Configuration> parentList = new ArrayList<>(parents);
         if (parentList.isEmpty())
             throw new IllegalArgumentException("'parents' is empty");

         Resolver resolver = new Resolver(before, parentList, after, null);
         resolver.resolve(roots).bind();

         return new Configuration(parentList, resolver, true);
     }


     /**
      * Returns the <em>empty</em> configuration. There are no modules in the
      * empty configuration. It has no parents.
      *
      * @return The empty configuration
      */
     public static Configuration empty() {
         return EMPTY_CONFIGURATION;
     }


     /**
      * Returns an unmodifiable list of this configuration's parents, in search
      * order. If this is the {@linkplain #empty empty configuration} then an
      * empty list is returned.
      *
      * @return A possibly-empty unmodifiable list of this parent configurations
      */
     public List<Configuration> parents() {
         return parents;
     }


     /**
      * Returns an immutable set of the resolved modules in this configuration.
      *
      * @return A possibly-empty unmodifiable set of the resolved modules
      *         in this configuration
      */
     public Set<ResolvedModule> modules() {
         return modules;
     }


     /**
      * Finds a resolved module in this configuration, or if not in this
      * configuration, the {@linkplain #parents parent} configurations.
      * Finding a module in parent configurations is equivalent to invoking
      * {@code findModule} on each parent, in search order, until the module
      * is found or all parents have been searched. In a <em>tree of
      * configurations</em> then this is equivalent to a depth-first search.
      *
      * @param  name
      *         The module name of the resolved module to find
      *
      * @return The resolved module with the given name or an empty {@code
      *         Optional} if there isn't a module with this name in this
      *         configuration or any parent configurations
      */
     public Optional<ResolvedModule> findModule(String name) {
         Objects.requireNonNull(name);
         ResolvedModule m = nameToModule.get(name);
         if (m != null)
             return Optional.of(m);

         if (!parents.isEmpty()) {
             return configurations()
                     .skip(1)  // skip this configuration
                     .map(cf -> cf.nameToModule)
                     .filter(map -> map.containsKey(name))
                     .map(map -> map.get(name))
                     .findFirst();
         }

         return Optional.empty();
     }


     Set<ModuleDescriptor> descriptors() {
         if (modules.isEmpty()) {
             return Collections.emptySet();
         } else {
             return modules.stream()
                     .map(ResolvedModule::reference)
                     .map(ModuleReference::descriptor)
                     .collect(Collectors.toSet());
         }
     }

     Set<ResolvedModule> reads(ResolvedModule m) {
         return Collections.unmodifiableSet(graph.get(m));
     }

     /**
      * Returns an ordered stream of configurations. The first element is this
      * configuration, the remaining elements are the parent configurations
      * in DFS order.
      *
      * @implNote For now, the assumption is that the number of elements will
      * be very low and so this method does not use a specialized spliterator.
      */
     Stream<Configuration> configurations() {
         List<Configuration> allConfigurations = this.allConfigurations;
         if (allConfigurations == null) {
             allConfigurations = new ArrayList<>();
             Set<Configuration> visited = new HashSet<>();
             Deque<Configuration> stack = new ArrayDeque<>();
             visited.add(this);
             stack.push(this);
             while (!stack.isEmpty()) {
                 Configuration layer = stack.pop();
                 allConfigurations.add(layer);

                 // push in reverse order
                 for (int i = layer.parents.size() - 1; i >= 0; i--) {
                     Configuration parent = layer.parents.get(i);
                     if (!visited.contains(parent)) {
                         visited.add(parent);
                         stack.push(parent);
                     }
                 }
             }
             this.allConfigurations = Collections.unmodifiableList(allConfigurations);
         }
         return allConfigurations.stream();
     }

     private volatile List<Configuration> allConfigurations;


     /**
      * Returns a string describing this configuration.
      *
      * @return A possibly empty string describing this configuration
      */
     @Override
     public String toString() {
         return modules().stream()
                 .map(ResolvedModule::name)
                 .collect(Collectors.joining(", "));
     }
 }
	/*
	* Copyright (c) 2014, 2017, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation. Oracle designates this
	* particular file as subject to the "Classpath" exception as provided
	* by Oracle in the LICENSE file that accompanied this code.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	package java.lang.module;

	import java.io.PrintStream;
	import java.util.ArrayDeque;
	import java.util.ArrayList;
	import java.util.Collection;
	import java.util.Collections;
	import java.util.Deque;
	import java.util.HashSet;
	import java.util.List;
	import java.util.Map;
	import java.util.Map.Entry;
	import java.util.Objects;
	import java.util.Optional;
	import java.util.Set;
	import java.util.stream.Collectors;
	import java.util.stream.Stream;

	/**
	* A configuration that is the result of <a href="package-summary.html#resolution">
	* resolution</a> or resolution with <a href="#service-binding">service binding</a>.
	*
	* <p> A configuration encapsulates the <em>readability graph</em> that is the
	* output of resolution. A readability graph is a directed graph whose vertices
	* are of type {@link ResolvedModule} and the edges represent the readability
	* amongst the modules. {@code Configuration} defines the {@link #modules()
	* modules()} method to get the set of resolved modules in the graph. {@code
	* ResolvedModule} defines the {@link ResolvedModule#reads() reads()} method to
	* get the set of modules that a resolved module reads. The modules that are
	* read may be in the same configuration or may be in {@link #parents() parent}
	* configurations. </p>
	*
	* <p> Configuration defines the {@link #resolve(ModuleFinder,List,ModuleFinder,Collection)
	* resolve} method to resolve a collection of root modules, and the {@link
	* #resolveAndBind(ModuleFinder,List,ModuleFinder,Collection) resolveAndBind}
	* method to do resolution with service binding. There are instance and
	* static variants of both methods. The instance methods create a configuration
	* with the receiver as the parent configuration. The static methods are for
	* more advanced cases where there can be more than one parent configuration. </p>
	*
	* <p> Each {@link java.lang.ModuleLayer layer} of modules in the Java virtual
	* machine is created from a configuration. The configuration for the {@link
	* java.lang.ModuleLayer#boot() boot} layer is obtained by invoking {@code
	* ModuleLayer.boot().configuration()}. The configuration for the boot layer
	* will often be the parent when creating new configurations. </p>
	*
	* <h3> Example </h3>
	*
	* <p> The following example uses the {@link
	* #resolve(ModuleFinder,ModuleFinder,Collection) resolve} method to resolve a
	* module named <em>myapp</em> with the configuration for the boot layer as the
	* parent configuration. It prints the name of each resolved module and the
	* names of the modules that each module reads. </p>
	*
	* <pre>{@code
	* ModuleFinder finder = ModuleFinder.of(dir1, dir2, dir3);
	*
	* Configuration parent = ModuleLayer.boot().configuration();
	*
	* Configuration cf = parent.resolve(finder, ModuleFinder.of(), Set.of("myapp"));
	* cf.modules().forEach(m -> {
	* System.out.format("%s -> %s%n",
	* m.name(),
	* m.reads().stream()
	* .map(ResolvedModule::name)
	* .collect(Collectors.joining(", ")));
	* });
	* }</pre>
	*
	* @since 9
	* @spec JPMS
	* @see java.lang.ModuleLayer
	*/
	public final class Configuration {

	// @see Configuration#empty()
	private static final Configuration EMPTY_CONFIGURATION = new Configuration();

	// parent configurations, in search order
	private final List<Configuration> parents;

	private final Map<ResolvedModule, Set<ResolvedModule>> graph;
	private final Set<ResolvedModule> modules;
	private final Map<String, ResolvedModule> nameToModule;

	// constraint on target platform
	private final String targetPlatform;

	String targetPlatform() { return targetPlatform; }

	private Configuration() {
	this.parents = Collections.emptyList();
	this.graph = Collections.emptyMap();
	this.modules = Collections.emptySet();
	this.nameToModule = Collections.emptyMap();
	this.targetPlatform = null;
	}

	private Configuration(List<Configuration> parents,
	Resolver resolver,
	boolean check)
	{
	Map<ResolvedModule, Set<ResolvedModule>> g = resolver.finish(this, check);

	@SuppressWarnings(value = {"rawtypes", "unchecked"})
	Entry<String, ResolvedModule>[] nameEntries
	= (Entry<String, ResolvedModule>[])new Entry[g.size()];
	ResolvedModule[] moduleArray = new ResolvedModule[g.size()];
	int i = 0;
	for (ResolvedModule resolvedModule : g.keySet()) {
	moduleArray[i] = resolvedModule;
	nameEntries[i] = Map.entry(resolvedModule.name(), resolvedModule);
	i++;
	}

	this.parents = Collections.unmodifiableList(parents);
	this.graph = g;
	this.modules = Set.of(moduleArray);
	this.nameToModule = Map.ofEntries(nameEntries);

	this.targetPlatform = resolver.targetPlatform();
	}

	/**
	* Resolves a collection of root modules, with this configuration as its
	* parent, to create a new configuration. This method works exactly as
	* specified by the static {@link
	* #resolve(ModuleFinder,List,ModuleFinder,Collection) resolve}
	* method when invoked with this configuration as the parent. In other words,
	* if this configuration is {@code cf} then this method is equivalent to
	* invoking:
	* <pre> {@code
	* Configuration.resolve(before, List.of(cf), after, roots);
	* }</pre>
	*
	* @param before
	* The <em>before</em> module finder to find modules
	* @param after
	* The <em>after</em> module finder to locate modules when not
	* located by the {@code before} module finder or in parent
	* configurations
	* @param roots
	* The possibly-empty collection of module names of the modules
	* to resolve
	*
	* @return The configuration that is the result of resolving the given
	* root modules
	*
	* @throws FindException
	* If resolution fails for any of the observability-related reasons
	* specified by the static {@code resolve} method
	* @throws ResolutionException
	* If resolution fails any of the consistency checks specified by
	* the static {@code resolve} method
	* @throws SecurityException
	* If locating a module is denied by the security manager
	*/
	public Configuration resolve(ModuleFinder before,
	ModuleFinder after,
	Collection<String> roots)
	{
	return resolve(before, List.of(this), after, roots);
	}


	/**
	* Resolves a collection of root modules, with service binding, and with
	* this configuration as its parent, to create a new configuration.
	* This method works exactly as specified by the static {@link
	* #resolveAndBind(ModuleFinder,List,ModuleFinder,Collection)
	* resolveAndBind} method when invoked with this configuration
	* as the parent. In other words, if this configuration is {@code cf} then
	* this method is equivalent to invoking:
	* <pre> {@code
	* Configuration.resolveAndBind(before, List.of(cf), after, roots);
	* }</pre>
	*
	*
	* @param before
	* The <em>before</em> module finder to find modules
	* @param after
	* The <em>after</em> module finder to locate modules when not
	* located by the {@code before} module finder or in parent
	* configurations
	* @param roots
	* The possibly-empty collection of module names of the modules
	* to resolve
	*
	* @return The configuration that is the result of resolving, with service
	* binding, the given root modules
	*
	* @throws FindException
	* If resolution fails for any of the observability-related reasons
	* specified by the static {@code resolve} method
	* @throws ResolutionException
	* If resolution fails any of the consistency checks specified by
	* the static {@code resolve} method
	* @throws SecurityException
	* If locating a module is denied by the security manager
	*/
	public Configuration resolveAndBind(ModuleFinder before,
	ModuleFinder after,
	Collection<String> roots)
	{
	return resolveAndBind(before, List.of(this), after, roots);
	}


	/**
	* Resolves a collection of root modules, with service binding, and with
	* the empty configuration as its parent. The consistency checks
	* are optionally run.
	*
	* This method is used to create the configuration for the boot layer.
	*/
	static Configuration resolveAndBind(ModuleFinder finder,
	Collection<String> roots,
	boolean check,
	PrintStream traceOutput)
	{
	List<Configuration> parents = List.of(empty());
	Resolver resolver = new Resolver(finder, parents, ModuleFinder.of(), traceOutput);
	resolver.resolve(roots).bind();

	return new Configuration(parents, resolver, check);
	}


	/**
	* Resolves a collection of root modules to create a configuration.
	*
	* <p> Each root module is located using the given {@code before} module
	* finder. If a module is not found then it is located in the parent
	* configuration as if by invoking the {@link #findModule(String)
	* findModule} method on each parent in iteration order. If not found then
	* the module is located using the given {@code after} module finder. The
	* same search order is used to locate transitive dependences. Root modules
	* or dependences that are located in a parent configuration are resolved
	* no further and are not included in the resulting configuration. </p>
	*
	* <p> When all modules have been enumerated then a readability graph
	* is computed, and in conjunction with the module exports and service use,
	* checked for consistency. </p>
	*
	* <p> Resolution may fail with {@code FindException} for the following
	* <em>observability-related</em> reasons: </p>
	*
	* <ul>
	*
	* <li><p> A root module, or a direct or transitive dependency, is not
	* found. </p></li>
	*
	* <li><p> An error occurs when attempting to find a module.
	* Possible errors include I/O errors, errors detected parsing a module
	* descriptor ({@code module-info.class}) or two versions of the same
	* module are found in the same directory. </p></li>
	*
	* </ul>
	*
	* <p> Resolution may fail with {@code ResolutionException} if any of the
	* following consistency checks fail: </p>
	*
	* <ul>
	*
	* <li><p> A cycle is detected, say where module {@code m1} requires
	* module {@code m2} and {@code m2} requires {@code m1}. </p></li>
	*
	* <li><p> A module reads two or more modules with the same name. This
	* includes the case where a module reads another with the same name as
	* itself. </p></li>
	*
	* <li><p> Two or more modules in the configuration export the same
	* package to a module that reads both. This includes the case where a
	* module {@code M} containing package {@code p} reads another module
	* that exports {@code p} to {@code M}. </p></li>
	*
	* <li><p> A module {@code M} declares that it "{@code uses p.S}" or
	* "{@code provides p.S with ...}" but package {@code p} is neither in
	* module {@code M} nor exported to {@code M} by any module that
	* {@code M} reads. </p></li>
	*
	* </ul>
	*
	* @implNote In the implementation then observability of modules may depend
	* on referential integrity or other checks that ensure different builds of
	* tightly coupled modules or modules for specific operating systems or
	* architectures are not combined in the same configuration.
	*
	* @param before
	* The <em>before</em> module finder to find modules
	* @param parents
	* The list parent configurations in search order
	* @param after
	* The <em>after</em> module finder to locate modules when not
	* located by the {@code before} module finder or in parent
	* configurations
	* @param roots
	* The possibly-empty collection of module names of the modules
	* to resolve
	*
	* @return The configuration that is the result of resolving the given
	* root modules
	*
	* @throws FindException
	* If resolution fails for any of observability-related reasons
	* specified above
	* @throws ResolutionException
	* If resolution fails for any of the consistency checks specified
	* above
	* @throws IllegalArgumentException
	* If the list of parents is empty, or the list has two or more
	* parents with modules for different target operating systems,
	* architectures, or versions
	*
	* @throws SecurityException
	* If locating a module is denied by the security manager
	*/
	public static Configuration resolve(ModuleFinder before,
	List<Configuration> parents,
	ModuleFinder after,
	Collection<String> roots)
	{
	Objects.requireNonNull(before);
	Objects.requireNonNull(after);
	Objects.requireNonNull(roots);

	List<Configuration> parentList = new ArrayList<>(parents);
	if (parentList.isEmpty())
	throw new IllegalArgumentException("'parents' is empty");

	Resolver resolver = new Resolver(before, parentList, after, null);
	resolver.resolve(roots);

	return new Configuration(parentList, resolver, true);
	}

	/**
	* Resolves a collection of root modules, with service binding, to create
	* configuration.
	*
	* <p> This method works exactly as specified by {@link
	* #resolve(ModuleFinder,List,ModuleFinder,Collection)
	* resolve} except that the graph of resolved modules is augmented
	* with modules induced by the service-use dependence relation. </p>
	*
	* <p id="service-binding"> More specifically, the root modules are
	* resolved as if by calling {@code resolve}. The resolved modules, and
	* all modules in the parent configurations, with {@link ModuleDescriptor#uses()
	* service dependences} are then examined. All modules found by the given
	* module finders that {@link ModuleDescriptor#provides() provide} an
	* implementation of one or more of the service types are added to the
	* module graph and then resolved as if by calling the {@code
	* resolve} method. Adding modules to the module graph may introduce new
	* service-use dependences and so the process works iteratively until no
	* more modules are added. </p>
	*
	* <p> As service binding involves resolution then it may fail with {@code
	* FindException} or {@code ResolutionException} for exactly the same
	* reasons specified in {@code resolve}. </p>
	*
	* @param before
	* The <em>before</em> module finder to find modules
	* @param parents
	* The list parent configurations in search order
	* @param after
	* The <em>after</em> module finder to locate modules when not
	* located by the {@code before} module finder or in parent
	* configurations
	* @param roots
	* The possibly-empty collection of module names of the modules
	* to resolve
	*
	* @return The configuration that is the result of resolving, with service
	* binding, the given root modules
	*
	* @throws FindException
	* If resolution fails for any of the observability-related reasons
	* specified by the static {@code resolve} method
	* @throws ResolutionException
	* If resolution fails any of the consistency checks specified by
	* the static {@code resolve} method
	* @throws IllegalArgumentException
	* If the list of parents is empty, or the list has two or more
	* parents with modules for different target operating systems,
	* architectures, or versions
	* @throws SecurityException
	* If locating a module is denied by the security manager
	*/
	public static Configuration resolveAndBind(ModuleFinder before,
	List<Configuration> parents,
	ModuleFinder after,
	Collection<String> roots)
	{
	Objects.requireNonNull(before);
	Objects.requireNonNull(after);
	Objects.requireNonNull(roots);

	List<Configuration> parentList = new ArrayList<>(parents);
	if (parentList.isEmpty())
	throw new IllegalArgumentException("'parents' is empty");

	Resolver resolver = new Resolver(before, parentList, after, null);
	resolver.resolve(roots).bind();

	return new Configuration(parentList, resolver, true);
	}


	/**
	* Returns the <em>empty</em> configuration. There are no modules in the
	* empty configuration. It has no parents.
	*
	* @return The empty configuration
	*/
	public static Configuration empty() {
	return EMPTY_CONFIGURATION;
	}


	/**
	* Returns an unmodifiable list of this configuration's parents, in search
	* order. If this is the {@linkplain #empty empty configuration} then an
	* empty list is returned.
	*
	* @return A possibly-empty unmodifiable list of this parent configurations
	*/
	public List<Configuration> parents() {
	return parents;
	}


	/**
	* Returns an immutable set of the resolved modules in this configuration.
	*
	* @return A possibly-empty unmodifiable set of the resolved modules
	* in this configuration
	*/
	public Set<ResolvedModule> modules() {
	return modules;
	}


	/**
	* Finds a resolved module in this configuration, or if not in this
	* configuration, the {@linkplain #parents parent} configurations.
	* Finding a module in parent configurations is equivalent to invoking
	* {@code findModule} on each parent, in search order, until the module
	* is found or all parents have been searched. In a <em>tree of
	* configurations</em> then this is equivalent to a depth-first search.
	*
	* @param name
	* The module name of the resolved module to find
	*
	* @return The resolved module with the given name or an empty {@code
	* Optional} if there isn't a module with this name in this
	* configuration or any parent configurations
	*/
	public Optional<ResolvedModule> findModule(String name) {
	Objects.requireNonNull(name);
	ResolvedModule m = nameToModule.get(name);
	if (m != null)
	return Optional.of(m);

	if (!parents.isEmpty()) {
	return configurations()
	.skip(1) // skip this configuration
	.map(cf -> cf.nameToModule)
	.filter(map -> map.containsKey(name))
	.map(map -> map.get(name))
	.findFirst();
	}

	return Optional.empty();
	}


	Set<ModuleDescriptor> descriptors() {
	if (modules.isEmpty()) {
	return Collections.emptySet();
	} else {
	return modules.stream()
	.map(ResolvedModule::reference)
	.map(ModuleReference::descriptor)
	.collect(Collectors.toSet());
	}
	}

	Set<ResolvedModule> reads(ResolvedModule m) {
	return Collections.unmodifiableSet(graph.get(m));
	}

	/**
	* Returns an ordered stream of configurations. The first element is this
	* configuration, the remaining elements are the parent configurations
	* in DFS order.
	*
	* @implNote For now, the assumption is that the number of elements will
	* be very low and so this method does not use a specialized spliterator.
	*/
	Stream<Configuration> configurations() {
	List<Configuration> allConfigurations = this.allConfigurations;
	if (allConfigurations == null) {
	allConfigurations = new ArrayList<>();
	Set<Configuration> visited = new HashSet<>();
	Deque<Configuration> stack = new ArrayDeque<>();
	visited.add(this);
	stack.push(this);
	while (!stack.isEmpty()) {
	Configuration layer = stack.pop();
	allConfigurations.add(layer);

	// push in reverse order
	for (int i = layer.parents.size() - 1; i >= 0; i--) {
	Configuration parent = layer.parents.get(i);
	if (!visited.contains(parent)) {
	visited.add(parent);
	stack.push(parent);
	}
	}
	}
	this.allConfigurations = Collections.unmodifiableList(allConfigurations);
	}
	return allConfigurations.stream();
	}

	private volatile List<Configuration> allConfigurations;


	/**
	* Returns a string describing this configuration.
	*
	* @return A possibly empty string describing this configuration
	*/
	@Override
	public String toString() {
	return modules().stream()
	.map(ResolvedModule::name)
	.collect(Collectors.joining(", "));
	}
	}